将应用程序映射到快速可配置体系结构

Proceedings. The 5th Annual IEEE Symposium on Field-Programmable Custom Computing Machines Cat. No.97TB100186) Pub Date : 1997-04-16 DOI:10.1109/FPGA.1997.624610

C. Ebeling, Darren C. Cronquist, Paul Franklin, Jason Secosky, Stefan G. Berg

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引用次数: 124

摘要

RaPiD(可重构流水线数据路径)体系结构的目标是为一系列需要专用硬件的计算密集型应用程序提供高性能的可配置计算。这是通过使用可配置的粗粒度计算单元数组将计算映射到深层管道来实现的。RaPiD的一个关键特征是静态和动态控制的结合。虽然底层计算管道是静态配置的，但提供了有限数量的动态控制，这大大增加了可以映射到RaPiD的应用程序的范围和能力。本文说明了这种映射和配置的几个重要应用，包括FIR滤波器，2-D DCT，运动估计和参数曲线生成;它还展示了如何使用静态和动态控制来执行复杂的计算。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mapping applications to the RaPiD configurable architecture

The goal of the RaPiD (Reconfigurable Pipelined Datapath) architecture is to provide high performance configurable computing for a range of computationally-intensive applications that demand special-purpose hardware. This is accomplished by mapping the computation into a deep pipeline using a configurable array of coarse-grained computational units. A key feature of RaPiD is the combination of static and dynamic control. While the underlying computational pipelines are configured statically, a limited amount of dynamic control is provided which greatly increases the range and capability of applications that can be mapped to RaPiD. This paper illustrates this mapping and configuration for several important applications including a FIR filter, 2-D DCT, motion estimation, and parametric curve generation; it also shows how static and dynamic control are used to perform complex computations.

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Proceedings. The 5th Annual IEEE Symposium on Field-Programmable Custom Computing Machines Cat. No.97TB100186)

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